The milestone SpaceX mission to refly the first ever ‘used rocket’ blasted off right on time at the opening of the dinnertime launch window on Thursday, March 30, at 6:27 p.m. EDT.

The used two stage 229-foot-tall (70-meter) rocket carried the SES-10 telecommunications payload to orbit using a ‘Flight-Proven’ Falcon 9 rocket from seaside Launch Complex 39A at NASA’s Kennedy Space Center (KSC) in Florida.

Musk said SpaceX invested about a billion dollars of his firm’s own funds and 15 years of hard won effort to accomplish the unprecedented feat that many experts deemed virtually unattainable or outright impossible.

“This represents the culmination of 15 years of work at SpaceX to be able to refly a rocket booster,” Musk elaborated.

“It’s really a great day, not just for SpaceX, but for the space industry as a whole, proving something can be done that many people said was impossible.”

‘We had a team embedded with SpaceX all along the way,” SES CTO Haliwell said at the post launch briefing.

Furthermore Halliwell was instrumental in signing up telecom giant SES as the paying customer who had complete confidence in placing his firm’s expensive SES-10 communication satellite atop SpaceX’s history making used and now successfully reflown booster.

“There have been naysayers,” Halliwell told reporters at a prelaunch press briefing on March 28. “I can tell you there was a chief engineer of another launch provider — I will not say the name — who told me, categorically to my face, you will never land a first stage booster. It is impossible. If you do it then it will be completely wrecked.”

“We are confident in this booster,” Halliwell told me at the prelaunch briefing.

“There is not a huge risk,” Halliwell stated emphatically. “In this particular case we know that the reusability capability is built into the design of the Falcon 9 vehicle.”

SpaceX CEO and Chief Designer Elon Musk and SES CTO Martin Halliwell exuberantly shake hands of congratulation following the successful delivery of SES-10 TV comsat to orbit using the first reflown and flight proven booster in world history at the March 30, 2017 post launch media briefing at NASA’s Kennedy Space Center in Florida. Credit: Ken Kremer/Kenkremer.com

“You’ve got to decouple the emotion from the engineering,” Halliwell elaborated on Thursday’s launch. “The engineering team that Elon has working for him is really second to none. He asks very simple profound questions. And he gets very good answers. The proof is in the pudding.”

The recycled Falcon delivered the nearly six ton SES-10 satellite to geostationary transfer orbit where it will provide significantly improved TV, voice, data and maratime service to over 37 million customers across Central and South America.

This recycled Falcon 9 first stage booster first launched in April 2016 for NASA on the SpaceX Dragon CRS-8 resupply mission to the International Space Station (ISS) under contract for the space agency.

Furthermore, after the 156 foot tall first stage booster completed its primary mission task, SpaceX engineers successfully guided it to a second landing on the tiny OCISLY drone ship for a soft touchdown some eight and a half minutes after liftoff.

OCISLY had left Port Canaveral several days ahead of the March 30 launch and was prepositioned in the Atlantic Ocean some 400 miles (600 km) off the US East coast, just waiting for the boosters 2nd history making approach and pinpoint propulsive soft landing.

It thus became the first booster in history to launch twice and land twice.

The ‘used’ SpaceX Falcon 9 launches the SES-10 telecomsat to orbit from historic Launch Complex 39A as it zooms past US Flag by the countdown clock at NASA’s Kennedy Space Center in Florida at 6:27 p.m. EDT on March 30, 2017. Credit: Ken Kremer/Kenkremer.com

KENNEDY SPACE CENTER, FL – SpaceX accomplished an American ‘Science Triumph’ with today’s “Mind Blowing” and history making second launch and landing of a previously flown Falcon 9 booster that successfully delivered a massive and powerful Hi Def TV satellite to orbit for telecom giant SES from the Kennedy Space Center. Note: Breaking News story being updated.

The milestone SpaceX mission to refly the first ever ‘used rocket’ blasted off right on time at dinnertime today, Thursday, March 30, at 6:27 p.m. EDT. It carried the SES-10 telecommunications payload to orbit atop a ‘Flight-Proven’ Falcon 9 rocket from seaside Launch Complex 39A at NASA’s Kennedy Space Center in Florida.

The recycled Falcon delivered the nearly six ton SES-10 satellite to geostationary transfer orbit where it will provide significantly improved TV, voice, data and maratime service to over 37 million customers across Central and South America.

The daring mission to relaunch a used booster dubbed ‘Flight-Proven’ seems like its straight out of a science fiction thriller.

“My mind is blown,” Musk said in post launch remarks at the KSC press site. “This is one of the coolest things ever.”

“We just had an incredible day today – the first re-flight of an orbital-class booster.”

“It did its mission perfectly, dropped off the second stage, came back and landed on the drone ship, right on the bullseye. It’s an amazing day, I think, for space as a whole, for the space industry.”

Recycled SpaceX Falcon 9 skyrockets to orbit with SES-10 telecomsat from historic Launch Complex 39A as it zooms past US Flag by the countdown clock at NASA’s Kennedy Space Center in Florida at 6:27 p.m. EDT on March 30, 2017. Credit: Ken Kremer/Kenkremer.com

For the first time in world history a recovered and ‘Flight-Proven’ rocket has actually launched on a second mission and not only roared aloft but survived intact all the way to its intended orbit and delivered a second satellite to orbit for a paying customer- in this case the commercial TV broadcast satellite provider SES- one of the world’s largest.

This recycled Falcon 9 first stage booster had initially launched in April 2016 for NASA on the SpaceX Dragon CRS-8 resupply mission to the International Space Station (ISS) under contract for the space agency.

Furthermore, after the 156 foot tall first stage booster completed its primary mission task, SpaceX engineers successfully guided it to a second landing on the tiny OCISLY drone ship for a soft touchdown some eight and a half minutes after liftoff.

OCISLY had left Port Canaveral several days ahead of the March 30 launch and was prepositioned in the Atlantic Ocean some 400 miles (600 km) off the US East coast, just waiting for the boosters 2nd history making approach and pinpoint propulsive soft landing.

It thus became the first booster in history to launch twice and land twice.

SpaceX CEO and Chief Designer Elon Musk and SES CTO Martin Halliwell exuberantly shake hands of congratulation following the successful delivery of SES-10 TV comsat to orbit using the first reflown and flight proven booster in world history at the March 30, 2017 post launch media briefing at NASA’s Kennedy Space Center in Florida. Credit: Ken Kremer/Kenkremer.com

And this magnificent achievement was accomplished through the dedication and hard work of engineers and scientists who benefited from the American education system that cultivated and nurtured their talents – like generations before them – and that we as a country must continue to support and fortify with reliable and ample research and development (R&D) and educational funding – now and in the future – if we wish to remain leaders in science and space.

The entire Falcon 9/SES-10 launch and landing was broadcast live on the SpaceX hosted webcast.

The SES-10 satellite was manufactured by Airbus Defence & Space and is based on the Eurostar E3000 platform. It will operate in geostationary orbit.Credit: SES/AirbusSpaceX Falcon 9 booster from Thaicom-8 launch on May 27, 2016 arrives at mouth of Port Canaveral, FL on June 2, 2016. Credit: Ken Kremer/kenkremer.com

The milestone SpaceX mission destined to refly the first ever ‘used rocket’ is slated for lift off on Thursday, March 30, at 6:27 p.m. EDT carrying the SES-10 telecommunications payload to orbit atop a ‘Flight-Proven’ Falcon 9 rocket from seaside Launch Complex 39A at NASA’s Kennedy Space Center in Florida.

So, if you want to witness this truly magnificent event in space history with your own eyes, there’s only a few hours left for you to ‘Get Your Ass to KSC!’ to paraphrase Apollo 11 moonwalker Buzz Aldrin.

The nearly six ton SES-10 satellite will provide significantly improved TV, voice, data and maratime service to over 37 million customers across Central and South America.

Eventually, Musk hopes to help establish a ‘City on Mars’ by building Interplanetary Colonial Transporters to transport human settlers to live on the Red Planet – the most Earth-like world in our Solar System.

You can watch the launch live on a SpaceX dedicated webcast starting about 20 minutes prior to the 6:27 pm EDT or 10:27 pm UTC liftoff time.

The weather outlook is glorious along the Florida Space Coast with an 80% chance of favorable conditions at launch time in the latest AF prognosis.

However for the back-up launch date on Friday, the outlook worsens considerable to only 40% favorable.

“This thing is good to go!” Halliwell told me.

The SES-10 satellite was manufactured by Airbus Defence & Space and is based on the Eurostar E3000 platform. It will operate in geostationary orbit.Credit: SES/Airbus

The Falcon 9 booster to be recycled was initially launched in April 2016 for NASA on the SpaceX Dragon CRS-8 resupply mission to the International Space Station (ISS) under contract for the space agency.

The 156 foot tall first stage was recovered about eight and a half minutes after liftoff via a pinpoint propulsive soft landing on an tiny ocean going droneship prepositioned in the Atlantic Ocean some 400 miles (600 km) off the US East coast.

If all goes well SpaceX will also attempt to re-land the Falcon 9 first stage on an oceangoing barge for an unprecedented second time, provided there are sufficient fuel reserves remaining after accomplishing its primary mission of delivering SES-10 to GTO, Halliwell stated.

The SES-10 launch comes barely 2 weeks after the prior SpaceX launch of EchoStar XXIII on March 16.

SpaceX, founded by billionaire and CEO Elon Musk, inked a deal in August 2016 with telecommunications giant SES, to refly a ‘Flight-Proven’ Falcon 9 booster.

“The satellite will be positioned at 67 degrees West, pursuant to an agreement with the Andean Community (Bolivia, Colombia, Ecuador and Peru), and will be used for the Simón Bolivar 2 satellite network.”

Up to 3 additional SES satellites could launch on SpaceX Falcon 9 rockets by the end of this year.

Watch for Kens’ continuing coverage direct from onsite at the Kennedy Space Center press site and Cape Canaveral Air Force Station.

A SpaceX Dragon cargo spacecraft splashed down in the Pacific Ocean at 2:51 p.m. EDT today, May 11, with more than 3,700 pounds of NASA cargo, science and technology demonstration samples from the International Space Station. Credit: SpaceX

A SpaceX cargo Dragon spacecraft loaded with nearly two tons of critical NASA science and technology experiments and equipment returned to Earth this afternoon, Wednesday, May 11, safely splashing down in the Pacific Ocean – and bringing about a successful conclusion to its mission to the International Space Station (ISS) that also brought aloft a new room for the resident crew.

Following a month long stay at the orbiting outpost, the unmanned Dragon was released from the grip of the stations Canadian-built robotic arm at 9:19 a.m. EDT by European Space Agency (ESA) astronaut Tim Peake.

After being detached from its berthing port at the Earth-facing port on the stations Harmony module by ground controllers, Peake commanded the snares at the terminus of the 57 foot long (19 meter long) Canadarm2 to open – as the station was soaring some 260 miles (418 kilometers) over the coast of Australia southwest of Adelaide.

Dragon backed away and soon departed after executing a series of three departure burns and maneuvers to move beyond the 656-foot (200-meter) “keep out sphere” around the station.

European Space Agency astronaut Tim Peake captured this photograph of the SpaceX Dragon cargo spacecraft as it undocked from the International Space Station on May 11, 2016. Following a series of departure burns Dragon returned to Earth for a splashdown in the Pacific Ocean at 2:51 p.m., about 261 miles southwest of Long Beach, California. Credit: NASA

“The Dragon spacecraft has served us well, and it’s good to see it departing full of science, and we wish it a safe recovery back to planet Earth,” Peake said.

Dragon fired its braking thrusters to initiate reentry back into the Earth’s atmosphere, and survived the scorching 3000+ degree F temperatures for the plummet back home.

A few hours after departing the ISS, Dragon splashed down in the Pacific Ocean at 2:51 p.m. EDT today, descending under a trio of huge orange and white main parachutes about 261 miles southwest of Long Beach, California.

“Good splashdown of Dragon confirmed, carrying thousands of pounds of @NASA science and research cargo back from the @Space_Station,” SpaceX notified via Twitter.

It was loaded with more than 3,700 pounds of NASA cargo, science and technology demonstration samples including a final batch of human research samples from former NASA astronaut Scott Kelly’s historic one-year mission that concluded in March.

“Thanks @SpaceX for getting our science safely back to Earth! Very important research,” tweeted Kelly soon after the ocean splashdown.

Among the study samples returned are those involving Biochemical Profile, Cardio Ox, Fluid Shifts, Microbiome, Salivary Markers and the Twins Study.

The goal of Kelly’s one-year mission was to support NASA’s plans for a human ‘Journey to mars’ in the 2030s. Now back on the ground Kelly continues to support the studies as a human guinea pig providing additional samples to learn how the human body adjusts to weightlessness, isolation, radiation and the stress of long-duration spaceflight.

Among the other items returned was a faulty spacesuit worn by NASA astronaut Tim Kopra. It will be analyzed by engineers to try and determine why a small water bubble formed inside Kopra’s helmet during his spacewalk in January that forced it to end prematurely as a safety precaution.

Dragon was plucked from the ocean by SpaceX contracted recovery ships and is now on its way to port in Long Beach, California.

“Dragon recovery team on site after nominal splashdown in Pacific,” said SpaceX.

“Some cargo will be removed and returned to NASA, and then be prepared for shipment to SpaceX’s test facility in McGregor, Texas, for processing,” says NASA.

Currently Dragon is the only station resupply craft capable of returning significant quantities of cargo and science samples to Earth.

The primary goal of the Falcon 9 launch was carrying the SpaceX Dragon CRS-8 cargo freighter to low Earth orbit on a commercial resupply delivery mission for NASA to the International Space Station (ISS).

Relive the launch via this video of the SpaceX Falcon 9/Dragon CRS-8 liftoff from my video camera placed at the pad:

The SpaceX commercial cargo freighter was jam packed with more than three and a half tons of research experiments, essential crew supplies and a new experimental inflatable habitat for it deliver run.

After a two day orbital chase it reached the ISS and the gleeful multinational crew of six astronauts and cosmonauts on Sunday, April 10.

Expedition 47 crew members Jeff Williams and Tim Kopra of NASA, Tim Peake of ESA (European Space Agency) and cosmonauts Yuri Malenchenko, Alexey Ovchinin and Oleg Skripochka of Roscosmos are currently living aboard the orbiting laboratory.

CRS-8 counts as the company’s eighth flight to deliver supplies, science experiments and technology demonstrations to the ISS for the crews of Expeditions 47 and 48 to support dozens of the approximately 250 science and research investigations in progress.

In a historic first, the arrival of the SpaceX Dragon cargo spacecraft marked the first time that two American cargo ships are simultaneously docked to the ISS. The Orbital ATK Cygnus CRS-6 cargo freighter arrived two weeks earlier on March 26 and is now installed at a neighboring docking port on the Unity module.

The Dragon spacecraft delivered almost 7,000 pounds of cargo, including the Bigelow Expandable Activity Module (BEAM), to the orbital laboratory which was carried to orbit inside the Dragon’s unpressurized truck section.

BEAM is a prototype inflatable habitat that the crew plucked from the Dragon’s truck with the robotic arm for installation on a side port of the Tranquility module on April 16.

Space photographers and some lucky tourists coincidentally touring through Cape Canaveral Air Force Station in the right place at the right time on a tour bus, managed to capture exquisite up close images and videos (shown above and below) of the rockets ground transport on Tuesday, April 19, along the route from its initial staging point at Port Canaveral to a secure area on KSC.

It was quite a sight to the delight of all who experienced this remarkable moment in space history – that could one day revolutionize space flight by radically slashing launch costs via recycled rockets.

The boosters nine first stage Merlin 1 D engines were wrapped in a protective sheath during the move as seen in the up close imagery.

The SpaceX Falcon 9 had successfully conducted a dramatic propulsive descent and soft landing on a barge some 200 miles offshore in the Atlantic Ocean on April 8, about 9 minutes after blasting off from Cape Canaveral Air Force Station at 4:43 p.m. EDT on the Dragon CRS-8 cargo mission for NASA to the International Space Station (ISS).

The used Falcon 9 booster then arrived back into Port Canaveral, Florida four days later, overnight April 12, after being towed atop the ocean going platform that SpaceX dubs an ‘Autonomous Spaceport Drone Ship’ or ASDS.

The spent 15 story tall Falcon 9 booster was transported to KSC by Beyel Bros. Crane and Rigging, starting around 9:30 a.m.

After initial cleaning and clearing of hazards and processing to remove its four landing legs at the Port facility, the booster was carefully lowered by crane horizontally into a retention cradle on a multiwheel combination Goldhofer/KMAG vehicle and hauled by Beyel to KSC with a Peterbilt Prime Mover truck.

The Falcon 9 was moved to historic Launch Complex 39A at KSC for processing inside SpaceX’s newly built humongous hanger located at the pad perimeter.

Indeed this Falcon 9 first stage is now residing inside the pad 39A hanger side by side with the only other flown rocket to be recovered; the Falcon 9 first stage that accomplished a land landing back at the Cape in December 2015 – as shown in this image from SpaceX CEO Elon Musk titled “By land and sea”.

Side by side SpaceX Falcon 9 first stages recovered ‘by land and sea’ in Dec 2015 and Apr 2016. Credit: SpaceX/Elon Musk

Watch this video of the move taken from a tour bus:

SpaceX engineers plan to conduct a series of some 12 test firings of the first stage Merlin 1 D engines to ensure all is well operationally in order to validate that the booster can be re-launched.

It may be moved back to Space Launch Complex-40 for the series of painstakingly inspections, tests and refurbishment.

The nine Merlin 1 D engines that power SpaceX Falcon 9 are positioned in an octoweb arrangement, as shown in this up close view of the base of recovered first stage during transport to Kennedy Space Center pad 39 A from Port Canaveral, Florida on April 19, 2016. Credit: Julian Leek

SpaceX hopes to refly the recovered booster in a few months, perhaps as early as this summer.

The vision of SpaceX’s billionaire founder and CEO Elon Musk is to dramatically slash the cost of access to space by recovering the firms rockets and recycling them for reuse – so that launching rockets will one day be nearly as routine and cost effective as flying on an airplane.

The essential next step after recovery is recycling. Musk said he hopes to re-launch the booster this year.

Whenever it happens, it will count as the first relaunch of a used rocket in history.

SpaceX has leased Pad 39A from NASA and is renovating the facilities for future launches of the existing upgraded Falcon 9 as well as the Falcon Heavy currently under development.

SpaceX Crew Dragon will blast off atop a Falcon 9 rocket from Launch Pad 39A at NASA’s Kennedy Space Center in Florida for missions to the International Space Station. Pad 39A is undergoing modifications by SpaceX to adapt it to the needs of the company’s Falcon 9 and Falcon Heavy rockets, which are slated to lift off from the historic pad in the near future. A horizontal integration facility (right) has been constructed near the perimeter of the pad where rockets will be processed for launch prior of rolling out to the top of the pad structure for liftoff. Credit: Ken Kremer/Kenkremer.com

Landing on the barge was a secondary goal of SpaceX and not part of the primary mission sending science experiments and cargo to the ISS crew under a resupply contract with for NASA.

Engineers at NASA’s Johnson Space Center in Houston used the space station’s high tech robotic arm to pluck the small module known as the Bigelow Expandable Activity Module (BEAM) out from the unpressurized rear truck section of the recently arrived SpaceX Dragon cargo freighter, and added it onto the orbiting laboratory complex.

BEAM was manufactured by Las Vegas-based Bigelow Aerospace under a $17.8 million contract with NASA. It will remain joined to the station for at least a two-year test period.

The 3115 pound (1413 kg) BEAM will test the use of an expandable space habitat in microgravity with humans for the first time.

It was extracted from the Dragon’s trunk overnight with the robotic Canadarm2 and then installed on the aft port of the Tranquility module at 5:36 a.m. EDT over a period of about 4 hours. The station was flying over the Southern Pacific Ocean at the moment of berthing early Saturday.

BEAM module after installation on the ISS Tranquility module on April 16, 2016. Credit: NASA

BEAM was carried to orbit in a compressed form inside the Dragon’s truck following the April 8 blast off from Cape Canaveral Air Force Station at 4:43 p.m. EDT on the Dragon CRS-8 resupply mission for NASA to the ISS.

BEAM is a prototype inflatable habitat that could revolutionize the method of construction of future habitable modules intended for use both in Low Earth Orbit (LEO) as well as for deep space expeditions Beyond Earth Orbit (BEO) to destinations including the Moon, Asteroids and Mars.

The advantage of expandable habitats is that they offer a much better volume to weight ratio compared to standard rigid metallic structures such as all of the current ISS pressurized modules.

It is constructed of lighter weight reinforced fabric rather that metal. This counts as the first test of an expandable module and investigators want to determine how it fares with respect to protection again solar radiation, space debris and the temperature extremes of space.

Furthermore they also take up much less space inside the payload fairing of a rocket during launch.

Watch this animation showing how Canadarm2 transports BEAM from the Dragon spacecraft to a side berthing port on Tranquility where it will soon be expanded.

Animation shows how the International Space Station robotic arm will transport BEAM from the Dragon spacecraft to a side berthing port on the Tranquility module where it will then be expanded. Credit: NASA

Current plans call for the module to be expanded in late May with air. It will expand to nearly five times from its compressed size of 8 feet in diameter by 7 feet in length to roughly 10 feet in diameter and 13 feet in length. Once inflated it will provide 565 cubic feet (16 m3) of habitable volume.

Exactly how it will expand is also an experiment and could happen in multiple ways. Therefore the team will exercise great caution and carefully monitor the inflation and check for leaks.

The Bigelow Expandable Activity Module, or BEAM, is attached to the International Space Station early on April 16, 2016. Credit: NASA

The astronauts will first enter BEAM about a week after the expansion. Thereafter they will visit it about 2 or 3 times per year for several hours to retrieve sensor data and assess conditions, say NASA officials.

Visits could perhaps occur even frequently more if NASA approves. says Bigelow CEO Robert Bigelow.

BEAM is an extraordinary test bed in itself.

This computer rendering depicts the Canadarm2 robotic arm removing BEAM from the back of the Space X Dragon spacecraft. Credit: NASA

But Robert Bigelow hopes that BEAM can be used to conduct science experiments after maybe a six month shakedown cruise, if all goes well, and NASA approves a wider usage.

Bigelow Aerospace has already taken in the next step in expandable habitats.

Earlier this week, Bigelow and rocket builder United Launch Alliance (ULA) announced they are joining forces to develop and launch the B330 expandable commercial habitat module in 2020 on an Atlas V. It is about 20 times larger and far more capable. Details in my story here.

Robert Bigelow says he hopes that NASA will approve docking of the B330 at the ISS.

CRS-8 counts as the company’s eighth flight to deliver supplies, science experiments and technology demonstrations to the ISS for the crews of Expeditions 47 and 48 to support dozens of the approximately 250 science and research investigations in progress.